Genetic and enzymatic characterization of conditional lethal mutants of the yeast Schizosaccharomyces pombe with a temperature-sensitive DNA ligase

Abstract

The DNA ligase activities of wild type and temperature-sensitive lethal cdc 17 mutants of Schizosaccharomyces pombe have been studied by measuring effects on the conversion of relaxed DNA circles containing a single nick to a closed circular form. Such assays have revealed that all cdc 17 mutants have a thermosensitive DNA ligase deficiency, that this deficiency cosegregates 2:2 with their temperature-sensitive cdc-lethality in three tetrads derived from a cross against wild type, and that genetic reversion of the temperature-sensitive cdc − phenotype is accompanied by a restoration of DNA ligase activity; all of which implies that the temperature-sensitive cdc − phenotype of cdc 17 mutants is due to a single nuclear mutation causing a DNA ligase deficiency. Both wild type and mutant enzymes have been partially purified by chromatography in heparin/agarose columns. The wild-type enzyme is completely stable in vitro at both permissive (25 °C) and restrictive (35 °C) temperatures, whereas that of two different mutants, though completely stable at 25 °C, is rapidly inactivated at 35 °C, implying that their mutations are located in the structural gene for DNA ligase.